| Testability of VLSI |
Lecture 14: Fault Tolerant VLSI Design |
|
87 mins |
| Testability of VLSI |
Lecture 13: Analog and Mixed-Signal Testing |
|
98 mins |
| Testability of VLSI |
Lecture 12: Built-in Self-Test |
|
88 mins |
| Testability of VLSI |
Lecture 11: Design for Testability |
|
85 mins |
| Testability of VLSI |
Lecture 10: Delay Testing |
|
86 mins |
| Testability of VLSI |
Lecture 09: Testing of Memory |
|
109 mins |
| Testability of VLSI |
Lecture 08: Testing of Sequential Circuits |
|
95 mins |
| Testability of VLSI |
Lecture 07: Automatic Test Pattern Generation for Combinational Circuits |
|
79 mins |
| Testability of VLSI |
Lecture 6B: Introduction to Automatic Test Pattern Generation |
|
40 mins |
| Testability of VLSI |
Lecture 6A: Testability Measures |
|
58 mins |
| Testability of VLSI |
Lecture 5: Fault Simulation |
|
91 mins |
| Advanced VLSI Design |
Lecture 5 Static Timing Analysis ( 2023-24) |
|
96 mins |
| Testability of VLSI |
Lecture 4: Logic Simulation |
|
90 mins |
| Testability of VLSI |
Lecture 3: Fault Collapsing |
|
95 mins |
| Introduction to Radars |
Lecture 4: MTI and Pulsed Doppler Radars |
|
34 mins |
| Testability of VLSI |
Lecture 2: Fault Modelling |
|
101 mins |
| Testability of VLSI |
Lecture 1: Introduction to VLSI Testing |
|
86 mins |
| Introduction to Radars |
Lecture 3: Unmodulated CW Radar |
|
23 mins |
| Introduction to Radars |
Lecture 2: Modulated CW Radars |
|
24 mins |
| Introduction to Radars |
Lecture 1: The Radar Range Equation |
|
39 mins |
| VLSI Design Using LT SPICE |
Lesson 1: Basics of LT SPICE |
|
89 mins |
| Analog IC Design |
Lecture 13: Gain Boosting and Output Amplifiers |
|
69 mins |
| Advanced VLSI Design |
Lecture 10: Advanced VLSI Design: Arithmetic Circuits: Part-2_2022-23 |
|
80 mins |
| Analog IC Design |
Lecture 12: Stability and Oscillators |
|
93 mins |
| Advanced VLSI Design |
Lecture 9: Arithmetic Circuits: Part-1 2022-23 |
|
85 mins |
| Analog IC Design |
Lecture 11: Operational Amplifiers |
|
105 mins |
| VLSI Design |
Lecture 16: Arithmetic Circuits: Part-1 2022-23 |
|
114 mins |
| Analog IC Design |
Lecture 10: Feedback |
|
113 mins |
| Analog IC Design |
Lecture 9: Frequency Response of Single Stage Amplifiers |
|
106 mins |
| Analog IC Design |
Lecture 8: DC Voltage and DC Current Sources Part-2 |
|
78 mins |
| Analog IC Design |
Lecture 7: DC Voltage and DC Current Sources |
|
85 mins |
| Analog IC Design |
Lecture 6: Differential Amplifiers Part-3 |
|
101 mins |
| Analog IC Design |
Lecture 5: Differential Amplifiers Part-2 |
|
116 mins |
| Advanced VLSI Design |
Lecture 4B: Static Timing Analysis 2022-S1 |
|
35 mins |
| Advanced VLSI Design |
Lecture 4A: Pipelined Registers_2022-S1 |
|
54 mins |
| VLSI Design |
Lecture 6: CMOS Inverter Static Characteristics_2022-S1 |
|
98 mins |
| Analog IC Design |
Lecture 4: Differential Amplifiers Part-1 |
|
103 mins |
| Analog IC Design |
Lecture 3: MOSFET Single Stage Amplifiers Part-2 |
|
90 mins |
| Analog IC Design |
Lecture 2: MOSFET Single Stage Amplifiers Part-1 |
|
115 mins |
| Analog IC Design |
Lecture 1: Review of MOSFET Operation |
|
74 mins |
| VLSI Architecture |
Lecture 11: Pipelined Architecture |
|
61 mins |
| VLSI Architecture |
Lecture 10: Timing Signals |
|
51 mins |
| VLSI Architecture |
Lecture 9: Flowcharts to Datapath Control Design |
|
44 mins |
| VLSI Architecture |
Lab 8: Sequential Circuit Design using Flip-flops in Xilinx |
|
16 mins |
| VLSI Architecture |
Lecture 8: Hardware Flowcharts Part-3 |
|
47 mins |
| Advanced VLSI Design |
Lecture 14B: CMOS Scaling |
|
18 mins |
| Advanced VLSI Design |
Lecture 14A: Deep-Submicron MOSFET operation |
|
58 mins |
| VLSI Design |
Lecture 19: CMOS Testing |
|
83 mins |
| Advanced VLSI Design |
Lecture 13: Interconnects |
|
63 mins |
| Advanced VLSI Design |
Lecture 12C: Adiabatic Logic |
|
17 mins |
| VLSI Design |
Lecture 18: Memory Design |
|
86 mins |
| Advanced VLSI Design |
Lecture 12B: Low Power VLSI Design Part-2: Architecture, Algorithmic, and RTL Level Optimization |
|
33 mins |
| Advanced VLSI Design |
Lecture 12A: Low Power VLSI Design Part-1: Gate Level Optimization |
|
62 mins |
| VLSI Design |
Lecture 17: Arithmetic Circuits: Part-2 |
|
76 mins |
| Digital VLSI |
The Layout of NAND Gate in Cadence Virtuoso. DRC and LVS Check |
|
32 mins |
| Advanced VLSI Design |
Lecture 11: Memory Design |
|
98 mins |
| VLSI Design |
Lecture 16: Arithmetic Circuits: Part-1 |
|
73 mins |
| Advanced VLSI Design |
Lecture 10: Arithmetic Circuits: Part-2 |
|
70 mins |
| VLSI Design |
Lecture 15: Pass Transistor Logic |
|
66 mins |
| Advanced VLSI Design |
Lecture 9: Arithmetic Circuits: Part-1 |
|
73 mins |
| VLSI Design |
Lecture 14: Adiabatic Logic |
|
27 mins |
| VLSI Design |
Lecture 13: Domino Logic |
|
43 mins |
| VLSI Architecture |
Lab 7: Applications of Decoder, Encoder, and Multiplexer in Xilinx Verilog |
|
24 mins |
| VLSI Architecture |
Lecture 7: Hardware Flow Chart-Part-2 |
|
53 mins |
| VLSI Architecture |
Lab 6: Multiplexer Design using Verilog in Xilinx |
|
16 mins |
| VLSI Architecture |
Lecture 6: Hardware Flow Chart Part-1 |
|
68 mins |
| Advanced VLSI Design |
Lecture 8: Interfacing Circuits – Part-3 Level Shifters and IO PADS |
|
75 mins |
| VLSI Design |
Demo on Dynamic Full Adder in LT SPICE Using 180 nm TSMC Files |
|
25 mins |
| VLSI Design |
Lecture 12: Dynamic Logic |
|
60 mins |
| VLSI Architecture |
Lab 5: Decoder and Full Adder Design using Verilog in Xilinx |
|
14 mins |
| VLSI Architecture |
Lecture 5: ALU Design and Microprocessor Design |
|
46 mins |
| Digital Design 2021 |
Lecture 30: Demonstration of RTL, DTL, CMOS NAND, and NOR in LT SPICE |
|
13 mins |
| Digital Design 2021 |
Lecture 29: Digital Logic Families |
|
44 mins |
| VLSI Architecture |
Lab 4: Handling multi-bit data and Concatenation in Verilog |
|
24 mins |
| VLSI Architecture |
Lecture 4: Instruction Set Architecture and MIPS Instructions |
|
68 mins |
| Digital Design 2021 |
Lecture 28: Programmable Logic Devices |
|
24 mins |
| Digital Design 2021 |
Lecture 27: Memory |
|
32 mins |
| VLSI Architecture |
Lab 3: Initialization in Verilog using XILINX ISE E |
|
17 mins |
| VLSI Architecture |
Lecture 3: Computer Arithmetic Algorithms and Implementations |
|
53 mins |
| Digital Design 2021 |
Lecture 26: ADC and DAC |
|
43 mins |
| Digital Design 2021 |
Lecture 25: Applications of Sequential Circuits |
|
27 mins |
| Advanced VLSI Design |
Lecture 7B: Part-2, Schmitt Triggers |
|
56 mins |
| Advanced VLSI Design |
Lecture 7A: Interfacing Circuits – Part-1, Synchronizer, and Arbiters |
|
31 mins |
| VLSI Architecture |
Lab 2: Implementation of Adders in Xilinx ISE Verilog Data Flow Level Modeling |
|
20 mins |
| VLSI Architecture |
Lecture 2: Microprocessor Architecture |
|
54 mins |
| VLSI Design |
Lecture 11: Layout of Static CMOS Circuits |
|
68 mins |
| Digital Design 2021 |
Lecture 24: Asynchronous Counters |
|
17 mins |
| Digital Design 2021 |
Lecture 23: Synchronous Counters |
|
40 mins |
| Advanced VLSI Design |
Lecture 6: Latch Based Clocking & Asynchronous Clocking |
|
83 mins |
| VLSI Design |
Lecture 10: Delays in Complex CMOS Static Logic Circuits |
|
44 mins |
| VLSI Design |
Lecture 9: CMOS Static Logic |
|
60 mins |
| VLSI Architecture |
Lab 1: Implementation of Majority Circuit in Xilinx ISE |
|
26 mins |
| VLSI Architecture |
Lecture 1: Introduction to VLSI Architecture |
|
55 mins |
| Digital Design 2021 |
Lecture 22: Registers |
|
27 mins |
| Digital Design 2021 |
Lecture 21: State Table Reduction & Implication Chart |
|
36 mins |
| Advanced VLSI Design |
Lecture 5B : Clock Generation and Distribution Part-2 |
|
30 mins |
| Advanced VLSI Design |
Lecture 5B: Clock Generation and Distribution Part-1 |
|
62 mins |
| VLSI Design |
Lecture 8: CMOS Inverter Transient Response |
|
67 mins |
| VLSI Design |
Lecture 7: MOS Capacitance |
|
18 mins |
| Digital Design 2021 |
Lecture 20: Sequence Detector |
|
17 mins |
| Digital Design 2021 |
Lecture 19: Sequential Circuit Design |
|
38 mins |
| Advanced VLSI Design |
Lecture 4B: Static Timing Analysis |
|
27 mins |
| Advanced VLSI Design |
Lecture 4A: Pipelined Registers |
|
50 mins |
| Digital Design 2021 |
Lecture 18: Sequential Logic Flipflops |
|
37 mins |
| Digital Design 2021 |
Lecture 17: Sequential Logic, SR, D Latch |
|
35 mins |
| Advanced VLSI Design |
Lecture 3: Dynamic Registers |
|
90 mins |
| VLSI Design |
Lecture 6: CMOS Inverter Static Characteristics |
|
88 mins |
| VLSI Design |
Lecture 5: CMOS Scaling |
|
16 mins |
| VLSI Design |
Lecture 4: CMOS Technology |
|
60 mins |
| Advanced VLSI Design |
Demonstration 2: Latch and Flip-flops |
|
13 mins |
| Advanced VLSI Design |
Lecture 2: Latch and Flip-flops |
|
80 mins |
| VLSI Design |
Lecture 3: Deep-Submicron MOSFET operation |
|
18 mins |
| VLSI Design |
Lecture 2: Review of MOSFET Operation |
|
75 mins |
| Advanced VLSI Design |
Demonstration 1: Installation of TSMC 180 nm Technology Files in LT SPICE |
|
23 mins |
| Advanced VLSI Design |
Lecture 1: Introduction to VLSI Design |
|
62 mins |
| VLSI Design |
Demonstration 1: Installation of TSMC 180 nm Technology Files in LT SPICE |
|
23 mins |
| VLSI Design |
Lecture 1: Introduction to VLSI Design |
|
62 mins |
| VLSI Design Using LT SPICE |
Lesson 6: SRAM Design |
|
29 mins |
| VLSI Design Using LT SPICE |
Lesson 5: Pass Transistor Logic Design |
|
22 mins |
| VLSI Design Using LT SPICE |
Lesson 4: Dynamic and Domino CMOS Design |
|
26 mins |
| VLSI Design Using LT SPICE |
Demonstration 4: D-Latch Design |
|
12 mins |
| VLSI Design Using LT SPICE |
Lesson 3: Static CMOS Design |
|
29 mins |
| Digital Design 2021 |
Lecture 16: Multiplexers and De-multiplexers |
|
28 mins |
| Digital Design 2021 |
Lecture 15: Decoders and Encoders |
|
45 mins |
| VLSI Design Using LT SPICE |
Demonstration 3: VCO Design |
|
9 mins |
| VLSI Design Using LT SPICE |
Lesson 2: Inverter Design |
|
48 mins |
| VLSI Design Using LT SPICE |
Demonstration 2: TSMC 180 nm NMOS Characterization Transfer Characteristics & Output Characteristics in LT Spice |
|
|
| VLSI Design Using LT SPICE |
Demonstration 1: Importing TSMC 180 nm CMOS technology file into LT SPICE |
|
16 mins |
| VLSI Design Using LT SPICE |
Lesson 1: Introduction to CMOS |
|
57 mins |
| Digital Design 2021 |
Lecture 14: Multipliers and Magnitude Comparators |
|
25 mins |
| Digital Design 2021 |
Lecture 13: Combinational Logic and Arithmetic Circuits |
|
55 mins |
| Digital Design 2021 |
Lecture 12: Hazards in Digital Circuits |
|
13 mins |
| Digital Design 2021 |
Lecture 11: Logic Gate Realization |
|
56 mins |
| Digital Design 2021 |
Lecture 10: Quine-McCluskey (QM) Technique |
|
49 mins |
| Digital Design 2021 |
Lecture 9: Five Variable K-Maps |
|
24 mins |
| Electrical Science Tutorials |
Problems and Solutions BJT Circuits |
|
20 mins |
| Digital Design 2021 |
Lecture 8: K-Maps Part 2 |
|
24 mins |
| Digital Design 2021 |
Lecture 7: K-Maps Part 1 |
|
53 mins |
| Electrical Science |
BJT Amplifiers-Part2 |
|
19 mins |
| Electrical Science |
BJT Amplifiers-Part1 |
|
38 mins |
| Electrical Science |
Introduction to BJT |
|
35 mins |
| Electrical Science Tutorials |
Diode Rectifiers, Clippers, and Clampers |
|
41 mins |
| Digital Design 2021 |
Lecture 6: Boolean Algebra: Part 2 |
|
28 mins |
| Digital Design 2021 |
Lecture 5: Boolean Algebra: Part 1 |
|
42 mins |
| Electrical Science |
Diode Clipper and Clamper Circuits |
|
32 mins |
| Electrical Science |
Diode Rectifiers |
|
52 mins |
| Digital Design 2021 |
Lecture 4: Binary Codes |
|
37 mins |
| Digital Design 2021 |
Lecture 3: Number System Part 2 |
|
54 mins |
| Electrical Science Tutorials |
Passive Filters & Transformers |
|
25 mins |
| Digital Design Lab |
Lab11: Implementation of Majority Circuit using 74XX, TTL Gates in Tinkercad |
|
25 mins |
| Electrical Science |
Transformer Theory and Operation |
|
35 mins |
| Electrical Science |
Passive Filters |
|
40 mins |
| Electrical Science Tutorials |
Three Phase AC Circuits |
|
24 mins |
| Digital Design 2021 |
Lecture 2: Number System Part 1 |
|
28 mins |
| Digital Design 2021 |
Lecture 1: Introduction to Digital Systems |
|
40 mins |
| Digital Design 2021 |
Lecture 0: Introduction to Digital Design Course |
|
9 mins |
| Electrical Science |
Three Phase AC Circuits – Part 3 |
|
35 mins |
| Electrical Science |
Three Phase AC Circuits – Part 2 |
|
25 mins |
| Electrical Science |
Three Phase AC Circuits - Part 1 |
|
37 mins |
| Electrical Science Tutorials |
Frequency Domain Analysis of RLC Circuit |
|
42 mins |
| Electrical Science |
Resonance in AC Circuits |
|
37 mins |
| Electrical Science |
AC Response for Parallel RLC Circuits |
|
26 mins |
| Electrical Science |
AC Response for a Series RLC Circuits |
|
|
| Electrical Science Tutorials |
Problems and Solutions: Basics of AC Circuit |
|
26 mins |
| Electrical Science |
AC Response for Pure Resistive, Inductive and Capacitive Circuits |
|
24 mins |
| Electrical Science |
Introduction to AC Circuits |
|
47 mins |
| Electrical Science Tutorials |
Problems and Solutions Second-Order Circuits |
|
31 mins |
| Electrical Science Tutorials |
Problems and Solutions First Order Circuits |
|
23 mins |
| Electrical Science |
Second Order Circuits, RLC series and RLC Parallel Circuits |
|
32 mins |
| Electrical Science Hobby Projects |
Tinkercad Project: Glowing LED with Interlocking Relay, 9 V battery 7805 Regulator |
|
7 mins |
| Electrical Science Hobby Projects |
Tinkercad Project: Glowing LED with 9 V battery 7805 Regulator and 5 V Relay |
|
7 mins |
| Electrical Science Hobby Projects |
Tinkercad Project: Staircase Wiring |
|
4 mins |
| Electrical Science Hobby Projects |
Tinkercad Project: Driving LED with 9 V battery and resistor |
|
5 mins |
| Electrical Science Hobby Projects |
Introduction to Tinker cad. Simple Switch and Bulb Circuit. |
|
9 mins |
| Electrical Science Tutorials |
Thevenin’s Norton’s, Max-Power Transform, Superposition Theorem |
|
33 mins |
| Electrical Science Tutorials |
Mesh and Node Analysis |
|
22 mins |
| Electrical Science Tutorials |
Problems and Solutions Electrical Sciences Power Sources |
|
28 mins |
| Electrical Science |
First Order Circuits |
|
42 mins |
| Electrical Science |
Inductors |
|
37 mins |
| Electrical Science |
Capacitors |
|
46 mins |
| Electrical Science |
Superposition Theorem |
|
26 mins |
| Electrical Science |
Norton’s Theorem & Max Power Transform Theorem |
|
30 mins |
| Electrical Science |
Thevenin's Theorem |
|
28 mins |
| Electrical Science |
Mesh and Node Analysis |
|
27 mins |
| Electrical Science |
Circuit Analysis and Kirchhoff’s Laws |
|
30 mins |
| Electrical Science |
Basic Electrical Quantities |
|
39 mins |
| Electrical Science |
Power Sources |
|
34 mins |
| Microprocessors & Interfaces |
Lecture 32: 8086 Interfaces Analog-To-Digital Converters (ADC) 0808,0809,0804, Digital-To-Analog Converters 0830(DAC). |
|
36 mins |
| Microprocessors & Interfaces |
Lecture 31: Programmable Interrupt Controller 8259A |
|
65 mins |
| Microprocessors & Interfaces |
Lecture 30: 8253/8254 Timer: Part 2 |
|
45 mins |
| Microprocessors & Interfaces |
Lecture 29: 8253/8254 Timer: Part 1 |
|
50 mins |
| Microprocessors & Interfaces |
Lecture 28: 8255 Programmable Peripheral Interface: Part 2 |
|
34 mins |
| Microprocessors & Interfaces |
Lecture 27: 8255 Programmable Peripheral Interface: Part 1 |
|
35 mins |
| Microprocessors & Interfaces |
Lecture 26: 8086 I/O Interfacing |
|
35 mins |
| Microprocessors & Interfaces |
Lecture 25: 8086 and 80286 Memory Interfacing: Part 3 |
|
37 mins |
| Microprocessors & Interfaces |
Lecture24: 8086 Bus Cycle, Machine Cycle, and Instruction Cycle |
|
50 mins |
| Microprocessors & Interfaces |
Lecture 23: 8088 Memory Interface Part-2 |
|
22 mins |
| Microprocessors & Interfaces |
Lecture 22: 8086 Memory Interface: Part-1 |
|
34 mins |
| Microprocessors & Interfaces |
Lecture 21: 8086 Interrupts |
|
50 mins |
| Microprocessors & Interfaces |
Lecture 20: 8086 Adress Decoding and Bus De-Multiplexing |
|
49 mins |
| Microprocessors & Interfaces |
Lecture-19: 8086 Memory Organisation |
|
38 mins |
| Microprocessors & Interfaces |
Lecture 18: 8086 Pin Diagram |
|
34 mins |
| Microprocessors & Interfaces |
Lecture 17: 8086 Branching & Program Control Instructions: Part-2 |
|
41 mins |
| Microprocessors & Interfaces |
Lecture-15: 8086 Logical Instructions : Part-2 |
|
16 mins |
| Microprocessors & Interfaces |
Lecture 16: 8086 Branching & Program Control Instructions: Part-1 |
|
34 mins |
| Microprocessors & Interfaces |
Lecture 14: 8086 Logical Instructions: Part-1 |
|
24 mins |
| Microprocessors & Interfaces |
Lecture 13: 8086 Arithmetic Instructions: Part-2 |
|
37 mins |
| Microprocessors & Interfaces |
Lecture 12: 8086 Arithmetic Instructions : Part-1 |
|
43 mins |
| Microprocessors & Interfaces |
Lecture 11: 8086 MASM Directives: Microsoft Assembler Directives |
|
34 mins |
| Microprocessors & Interfaces |
Lecture 10: 8086 Instructions Set: Part-4 |
|
21 mins |
| Microprocessors & Interfaces |
Lecture 9: 8086 Instructions Set : Part-3 |
|
30 mins |
| Microprocessors & Interfaces |
Lesson 8: 8086 Instructions Set : Part-2 |
|
51 mins |
| Microprocessors & Interfaces |
Lecture 7 : 8086 Instructions Set : Part-1 |
|
57 mins |
| Microprocessors & Interfaces |
Lecture 6: Addressing Modes & OP-Code, Problems, and Solutions |
|
47 mins |
| Microprocessors & Interfaces |
Lecture 5: 8086 Addressing Modes and OP-Code |
|
61 mins |
| Microprocessors & Interfaces |
Lecture 4: 8086 Architecture, Memory Segmentation, Physical Address generation, Bus Interface Unit |
|
46 mins |
| Microprocessors & Interfaces |
Lecture 3: Overview of 8086 Microprocessor and Explanation of PIN Diagram |
|
43 mins |
| Microprocessors & Interfaces |
Lecture 2: Overview of 8086 Microprocessor |
|
44 mins |
| Microprocessors & Interfaces |
Lecture 1: Introduction |
|
23 mins |
| Microprocessors & Interfaces Lab |
Lab 11: Program to Display numbers in LED Display |
|
7 mins |
| Microprocessors & Interfaces Lab |
Lab 10: Program to Control Traffic Light System |
|
13 mins |
| Microprocessors & Interfaces Lab |
Lab 9: Program to Control Stepper Motor |
|
23 mins |
| Microprocessors & Interfaces Lab |
Lab 8: 8086 Interrupts |
|
22 mins |
| Microprocessors & Interfaces Lab |
Lab 07: ALP for Reversal of String |
|
21 mins |
| Microprocessors & Interfaces Lab |
Lab 6: Arranging numbers in ascending order and Matrix addition |
|
19 mins |
| Microprocessors & Interfaces Lab |
Lab 5: Programming with 8086 EMU Emulator , ALP for Average of N Numbers and Fibonacci Series |
|
11 mins |
| Microprocessors & Interfaces Lab |
Lab 4: Addressing Modes in 8086 |
|
30 mins |
| Microprocessors & Interfaces Lab |
Lab 3: Temperature Conversion from Fahrenheit to Celcius and Factorial of a Number |
|
26 mins |
| Microprocessors & Interfaces Lab |
Lab 2: 8086 Arithmetic Operations |
|
14 mins |
| Microprocessors & Interfaces Lab |
Lab 1: Introduction to 8086 Emulator |
|
37 mins |
| Microprocessors and Interfaces Tutorials |
Tutorial 13: 8086 Interfaces 8255A PPI/8254 Timer and 8259A PIC |
|
32 mins |
| Microprocessors and Interfaces Tutorials |
Tutorial 12: |
|
36 mins |
| Microprocessors and Interfaces Tutorials |
Tutorial 11: 8086, 8088, and 80286 Memory Interface |
|
40 mins |
| Microprocessors and Interfaces Tutorials |
Tutorial 10: 8086 Memory Interface and Address De-coding |
|
28 mins |
| Microprocessors and Interfaces Tutorials |
Tutorial 9: 8086 Memory Organisation and Interrupts |
|
30 mins |
| Microprocessors and Interfaces Tutorials |
Tutorial 8 : 8086 Branching Operations |
|
29 mins |
| Microprocessors and Interfaces Tutorials |
Tutorial 7 : 8086 Arithmetic and Logical Operations |
|
21 mins |
| Microprocessors and Interfaces Tutorials |
Tutorial 6 : 8086 Arithmetic Operations ALPs |
|
41 mins |
| Microprocessors and Interfaces Tutorials |
Tutorial 5 : 8086 Data Transfer ALPs |
|
29 mins |
| Microprocessors and Interfaces Tutorials |
Tutorial 4 : 8086 Assembly Language to Machine Language Op-code. Addition, Subtraction BCD ALP |
|
40 mins |
| Microprocessors and Interfaces Tutorials |
Tutorial 3 : 8086 Addressing Modes and Physical Address Calculation |
|
26 mins |
| Microprocessors and Interfaces Tutorials |
Tutorial 2 : Microprocessor Design |
|
35 mins |
| Microprocessors and Interfaces Tutorials |
Tutorial 1 : Review of Binary arithmetic Operations |
|
35 mins |
| Hobby Projects: Digital Design and Microprocessors |
Programming with Arduino in TinkerCad: Potentiometer Input (Analog), Bar graph, and 7-Segment Display Outputs. |
|
15 mins |
| Hobby Projects: Digital Design and Microprocessors |
Programming with Arduino in TinkerCad: Temperature Sensor, Celsius to Fahrenheit Conversion & LCD Display. |
|
11 mins |
| Hobby Projects: Digital Design and Microprocessors |
Implementation of Analog to Digital Converter ADC, (2-bit Digital Output ) using Arduino in TinkerCad |
|
13 mins |
| Hobby Projects: Digital Design and Microprocessors |
Programming with Arduino in TinkerCad : Switch-controlled Bulb and Blinking LED. |
|
20 mins |
| Hobby Projects: Digital Design and Microprocessors |
Introduction to TinkerCad |
|
30 mins |
| Hobby Projects: Digital Design and Microprocessors |
Quiz Buzzer Circuit with 7400 NAND Gates in LT SPICE |
|
8 mins |
| Hobby Projects: Digital Design and Microprocessors |
Debouncing Switch with 7400 NAND Gates in LT SPICE |
|
20 mins |
| Digital VLSI |
TSMC 180 nm NMOS Characterization Transfer Characteristics & Output Characteristics in LT Spice |
|
10 mins |
| Digital VLSI |
TSMC 180 nm CMOS Full Adder in LT Spice, Measurement of Delay and Power, Sizing of Transistors of 28-T CMOS Full Adder |
|
25 mins |
| Digital VLSI |
Importing PTM 7nm, 16 nm, 22nm CMOS Technology files Into Virtuoso Cadence® |
|
10 mins |
| Digital VLSI |
Measurement of Power and Delay Analysis of CMOS digital Circuits in Cadence. |
|
56 mins |
| Digital VLSI |
Importing Stanford University CNFET model into Cadence Virtuoso |
|
15 mins |
| Digital VLSI |
Importing CMOSS 60 nm, 45 nm, 22nm, 16nm, 10 nm, and 7nm Technology Files into LT SPICE |
|
10 mins |
| Digital VLSI |
180 nm CMOS Inverter Characterization with LT SPICE |
|
16 mins |
| Digital VLSI |
Low Power Techniques for Digital VLSI Circuits |
|
45 mins |
| Analog Electronics with Operational Amplifiers |
Op-Amp based VCO |
|
16 mins |
| Analog Electronics with BJT |
Differential Amplifier |
|
23 mins |
| Analog Electronics with BJT |
Common Base (CB) Amplifier and Cascode Amplifier |
|
19 mins |
| Analog Electronics with BJT |
Common Collector (CC) Amplifier and CE-CC Cascade Amplifier |
|
33 mins |
| Analog Electronics with BJT |
Common Emitter (CE) Amplifier Design |
|
61 mins |
| TCAD Sentaurus |
Introduction to Sentaurus TCAD : Part-2 |
|
77 mins |
| TCAD Sentaurus |
Introduction to Sentaurus TCAD-Part 1 |
|
3 mins |
| Analog Communication |
Lecture 2 : Super Heterodyne Receivers |
|
32 mins |
| Analog Communication |
Lecture 1 : Amplitude Modulation |
|
63 mins |
| Electrical Machines |
Lecture 2 : DC Motors |
|
32 mins |
| Electrical Machines |
Lecture 1 : DC Generators |
Easy |
60 mins |
| Digital Design Lab |
Lab 10 : Sequential Circuit Design using Flip-flops in Xilinx ISE |
|
15 mins |
| Digital Design Lab |
Lab 9 : Combinational Circuit Design using Decoders and Multiplexers in Xilinx ISE |
|
13 mins |
| Digital Design Lab |
Lab 8 : Sequential Circuit Design using D and JK Flipflops in LT SPICE |
|
12 mins |
| Digital Design Lab |
Lab 7 : Combinational Circuit Design using Decoders and Multiplexers in LTSPICE |
|
10 mins |
| Digital Design Lab |
Lab 6 : Dataflow Modelling Implementation of 4-Bit Adder & BCD Adder in Xilinx ISE |
|
25 mins |
| Digital Design Lab |
Lab 5 : Dataflow Modelling and Implementation of Adders in Xilinx ISE |
|
35 mins |
| Digital Design Lab |
Lab 4 : Introduction to Verilog and Implementation of Majority Circuit in Xilinx ISE |
|
22 mins |
| Digital Design Lab |
Lab 3 : Four-Bit Parallel Adder & BCD Adder in LT SPICE |
|
16 mins |
| Digital Design Lab |
Lab 2 : Parity Generator and Adders with LT Spice using 7400 Series TTL Gates |
|
25 mins |
| Digital Design Lab |
Lab 1 : Introduction to LT SPICE and Implementation of Majority Circuit |
|
53 mins |
| Digital Design Tutorials |
Tutorial 13 : Binary Multiplication |
|
26 mins |
| Digital Design Tutorials |
Tutorial 12: CMOS Implementation |
|
26 mins |
| Digital Design Tutorials |
Tutorial 11 : Memory and PLD |
|
27 mins |
| Digital Design Tutorials |
Tutorial 10 : State Table Reduction |
|
25 mins |
| Digital Design Tutorials |
Tutorial 9 : Sequence Detector |
|
32 mins |
| Digital Design Tutorials |
Tutorial 8 : Sequential Circuit Design |
|
27 mins |
| Digital Design Tutorials |
Tutorial 7 : Flip-Flops |
|
30 mins |
| Digital Design Tutorials |
Tutorial 6 : Hazards, Design using Decoders a Multiplexers |
|
24 mins |
| Digital Design |
Lecture 29: Booth Multiplier |
|
28 mins |
| Digital Design |
Lecture 28: Multiplier |
|
28 mins |
| Digital Design |
Lecture 27: Programmable Logic Controllers and CMOS Design |
|
37 mins |
| Digital Design |
Lecture 26: Programable Logic Devices |
|
67 mins |
| Digital Design |
Lecture 25: Memory |
|
37 mins |
| Digital Design |
Lecture 24: Applications of Sequential Circuits |
|
36 mins |
| Digital Design |
Lecture 23: Synchronous Counters |
|
90 mins |
| Digital Design |
Lecture 22: Asynchronous Counters |
|
47 mins |
| Digital Design |
Lecture 21: Registers |
|
42 mins |
| Digital Design |
Lecture 20: State Table Reduction |
|
23 mins |
| Digital Design |
Lecture 19: Sequence Detector |
|
57 mins |
| Digital Design |
Lecture 18: Sequential Circuit Design |
|
52 mins |
| Digital Design |
Lecture 17: T & JK Flip-Flops |
|
40 mins |
| Digital Design |
Lecture 16: D-Latches and D-Flipflops |
|
58 mins |
| Digital Design |
Lecture 15: Sequential Logic & SR Latch |
|
55 mins |
| Digital Design |
Lecture 14: Multiplexers and Demultiplexers |
|
47 mins |
| Digital Design |
Lesson 13: Encoders and Decoders |
|
50 mins |
| Digital Design |
Lecture 12: Four Bit Adders, Multipliers, and Magnitude Comparators |
|
44 mins |
| Digital Design |
Lecture 11 : Combinational Logic and Arithmetic Circuits |
|
40 mins |
| Digital Design |
Lecture10: Hazards and Multi-Output Circuits |
|
54 mins |
| Digital Design |
Lecture 9: Quine-McCluskey (QM) Technique |
|
55 mins |
| Digital Design |
Lecture 8: Five Variable K-map |
|
43 mins |
| Digital Design |
Lesson 7: Logic Gate Realization and Design |
|
27 mins |
| Digital Design |
Lecture 5: Two and Three Variable K-Maps |
|
43 mins |
| Digital Design |
Lecture 6 : Four Variable K-Maps |
|
64 mins |
| Digital Design Tutorials |
Tutorial 5 : Combinational Circuit Design |
|
35 mins |
| Digital Design Tutorials |
Tutorial 4: Quine-McCluskey (QM) Method |
|
44 mins |
| Digital Design Tutorials |
Tutorial 3 : Karnaugh Maps |
|
46 mins |
| Digital Design Tutorials |
Tutorial 2 : Boolean Algebra & Logic Gates |
|
38 mins |
| Digital Design Tutorials |
Tutorial 1 : Binary Number System |
|
25 mins |
| Digital Design |
Lecture 4: Boolean Algebra |
Hard |
56 mins |
| Digital Design |
Lecture 3 : Number System Part-2 |
Hard |
50 mins |
| Digital Design |
Lecture 1 : Introduction to Digital Electronics Design |
Easy |
52 mins |
| Digital Design |
Lecture 2: Number Systems Part-1 |
Easy |
56 mins |
(5 votes, average: 4.60 out of 5)
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